Value Stream Mapping as a Lean Construction Tool – a Case Study Abhigna E Desai 1 Civil Engineering Department Ahmedabad Institute of Aeronautical Engineering and Information Technology Ahmedabad, India Maharshi J Shelat 2 Civil Engineering Department Veermata Jijabai Technological Institute Mumbai, India Abstract— Low productivity is the chronic problem in construction industry. One way to increase the productivity is to reduce non-value adding activities. Productivity improvements achieve higher cost savings with minimal investment. This paper describes the concepts of value stream mapping, a lean construction tool to help reduce the non- value adding activities in construction projects and increase the productivity. Keywords— Non-value adding activity; Productivity; Value stream mapping; Lean construction I. INTRODUCTION Since many years, the construction industry in India has suffered from not delivering the projects in time, within budget and with the quality demanded by the customer. Due to these problems, the loss of big projects to international companies is obvious. This study is concerned with the need to spread and apply The Lean Construction concepts and principles in the real world in order to contribute to the consolidation of a theory. Also to learn to discover and Reduce/Eliminate wastes in the organization. Past research into the causes of waste in construction projects indicate that waste can arise at any stage of the construction process from inception, right through the design, construction and operation of the built facility. Waste in the construction industry has been the subject of several research projects around the world in recent years. It is commonly acknowledged that a very high level of waste exists in construction. The creation of this waste can be prevented by applying lean construction principles. Due to the unique nature of most on-site projects, it can often be difficult to define generic production steps that are adding value. This is perhaps more evident in civil engineering construction projects as value is often viewed differently by different participants. Also, the time between award of contract and start of the construction work is normally short. Even though the construction process is not standardized and needs to be re-developed each time, the contractors focus is not to plan and optimize the on-site building process. Several productivity also indicate that there is much waste generated on construction sites. (Peter Simonsson et al., 2012) The key to improving on-site construction is in the management of flow of materials, resources and information. For this, site management must be trained to differentiate between value adding and wasteful activities and hence, eliminate waste from the construction process. Value Stream Mapping (VSM) is described as an iterative method for mapping and analyzing value streams. Its purpose is to quantify and communicate production process characteristics such as material and information flows as well as non-value adding activities. VSM consists of the elements of „The Current State Mapping‟ and „The Future State Mapping‟. The Current State Mapping - The goal of current state mapping is to create the clear picture of the existing process and to identify waste. Mapping the current state reveals both value and non-value adding activities. The Future State Mapping - The focus of future state mapping is to eliminate the root cause of wastes and to link the value stream in a smooth flow. The objective of the future state (to-be scenario) is to create a value stream where every individual process is connected to a customer by either continuous flow or a pull system CASE STUDY Value stream mapping (VSM) is used to identify value- adding activities and those considered wasteful of materials and the flow of information and people. The purpose of studying this tool is to understand how Value stream mapping (VSM) is helpful in lean implementation and to develop the road map to tackle improvement areas to bridge the gap between the existing state and the proposed state of different construction activities. For mapping the current state map, the information for different RCC activities for slab preparation was collected from the contractor, site engineer, site supervisors and workers. The data like, types of activities, its quantity for a typical slab, no. of days and resources required for RCC activities are gathered. It is shown in the table 1. International Journal of Engineering Research & Technology (IJERT) ISSN: 2278-0181 www.ijert.org IJERTV3IS120412 (This work is licensed under a Creative Commons Attribution 4.0 International License.) Vol. 3 Issue 12, December-2014 354
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Value Stream Mapping as a Lean Construction
Tool – a Case Study
Abhigna E Desai1
Civil Engineering Department
Ahmedabad Institute of Aeronautical Engineering and
Information Technology
Ahmedabad, India
Maharshi J Shelat2
Civil Engineering Department
Veermata Jijabai Technological Institute
Mumbai, India
Abstract— Low productivity is the chronic problem in
construction industry. One way to increase the productivity is
to reduce non-value adding activities. Productivity
improvements achieve higher cost savings with minimal
investment. This paper describes the concepts of value stream
mapping, a lean construction tool to help reduce the non-
value adding activities in construction projects and increase
the productivity.
Keywords— Non-value adding activity; Productivity; Value
stream mapping; Lean construction
I. INTRODUCTION
Since many years, the construction industry in India has
suffered from not delivering the projects in time, within
budget and with the quality demanded by the customer. Due
to these problems, the loss of big projects to international
companies is obvious. This study is concerned with the need
to spread and apply The Lean Construction concepts and
principles in the real world in order to contribute to the
consolidation of a theory. Also to learn to discover and
Reduce/Eliminate wastes in the organization.
Past research into the causes of waste in construction
projects indicate that waste can arise at any stage of the
construction process from inception, right through the
design, construction and operation of the built facility.
Waste in the construction industry has been the subject of
several research projects around the world in recent years. It
is commonly acknowledged that a very high level of waste
exists in construction. The creation of this waste can be
prevented by applying lean construction principles.
Due to the unique nature of most on-site projects, it can
often be difficult to define generic production steps that are
adding value. This is perhaps more evident in civil
engineering construction projects as value is often viewed
differently by different participants. Also, the time between
award of contract and start of the construction work is
normally short. Even though the construction process is not
standardized and needs to be re-developed each time, the
contractors focus is not to plan and optimize the on-site
building process. Several productivity also indicate that
there is much waste generated on construction sites. (Peter
Simonsson et al., 2012)
The key to improving on-site construction is in the
management of flow of materials, resources and
information. For this, site management must be trained to
differentiate between value adding and wasteful activities
and hence, eliminate waste from the construction process.
Value Stream Mapping (VSM) is described as an
iterative method for mapping and analyzing value streams.
Its purpose is to quantify and communicate production
process characteristics such as material and information
flows as well as non-value adding activities. VSM consists
of the elements of „The Current State Mapping‟ and „The
Future State Mapping‟.
The Current State Mapping - The goal of current state
mapping is to create the clear picture of the existing
process and to identify waste. Mapping the current state
reveals both value and non-value adding activities.
The Future State Mapping - The focus of future state
mapping is to eliminate the root cause of wastes and to link
the value stream in a smooth flow. The objective of the
future state (to-be scenario) is to create a value stream
where every individual process is connected to a customer
by either continuous flow or a pull system
CASE STUDY
Value stream mapping (VSM) is used to identify value-
adding activities and those considered wasteful of materials
and the flow of information and people. The purpose of
studying this tool is to understand how Value stream
mapping (VSM) is helpful in lean implementation and to
develop the road map to tackle improvement areas to
bridge the gap between the existing state and the proposed
state of different construction activities.
For mapping the current state map, the information for
different RCC activities for slab preparation was collected
from the contractor, site engineer, site supervisors and
workers. The data like, types of activities, its quantity for a
typical slab, no. of days and resources required for RCC
activities are gathered. It is shown in the table 1.
International Journal of Engineering Research & Technology (IJERT)
IJERT
IJERT
ISSN: 2278-0181
www.ijert.orgIJERTV3IS120412
(This work is licensed under a Creative Commons Attribution 4.0 International License.)
bending and shifting of steel is, Rs.3000 + Rs. 1080 =
Rs.4080 and the whole process took 11 days.
Fig. 3 Steel Inventory
Fig. 4 Security at Inventory
The large space is occupied because of the steel
inventory. Heavy Inventory holding cost is paid to the
security agency. Three watchmen work at the steel yard in
Day, Evening and Night shifts. Daily wages paid to each is
Rs. 240. So, money spent for the security of steel yard is
Rs. 720 each day. Therefore, for 11 days the expense for
security of steel yard is Rs. 7920.
Fig. 5 Waste of cut pieces of steel
Waste is generated due to the cut pieces of steel. Error
in cutting or bending steel or mistake in reading of bar
bending schedule (BBS) causes the waste in steel.
So, the money spent in cutting, bending and shifting of
steel is Rs.4080 and the money spent in security is Rs.
9820 for 11 days.
Total money spent is Rs.4080 + Rs. 9820 = Rs.12000.
Total time spent for the whole procedure = 11 days.
• Recommendations for improvement in current process
To avoid such expenses in cutting and bending of steel
and its holding cost, it was suggested by the author to order
readymade steel on site. Readymade steel is a company
made steel prepared as per client‟s requirements and bar
bending schedule given. There are many benefits for using
readymade steel in construction works.
Fig. 6 Steel bending machine
Fig. 7 Readymade steel
Readymade steel providers give a faster delivery of final
product. It can be received at site on the 8th day of indent. „ Following are the benefits of using readymade steel for
this case study: • Rs.4080 paid to the Labors for cutting, bending
and shifting of steel can be saved. • Space for the steel inventory is saved. It can be
used for other purposes. • Security is no longer required at steel yard. Rs.
7920 is saved. • No waste generation by cut pieces of steel. • Procurement planning can be improved. • 11 days were reduced to 8 days. 3 days are saved.
International Journal of Engineering Research & Technology (IJERT)
IJERT
IJERT
ISSN: 2278-0181
www.ijert.orgIJERTV3IS120412
(This work is licensed under a Creative Commons Attribution 4.0 International License.)
But, these are the improvements in the parallel activities. It would not affect the main activities of slab. Our focus is to propose a future state which reduce the slab cycle time by identifying waste in the current process for main activities or by applying innovative ideas.
Fig. 8 Current process of construction
In the current process, there is no wasteful process was
found. But, there is a room for improvement by using innovative technique.
• It is possible to fix the column off-site and erected
using crane. • Off-site column fixing can be started two days
earlier using safety stock of steel. • Risk of working on heights can be avoided. • Slab can be completed within 13 days, instead of
15.
Fig. 9 Risk of working on heights
Fig 10. Off-site column fixing
Fig 11. Off-site fixed column cages
Future state Map
Fig. 12 Future state map
Using this technique, column fixing can be started
earlier and 2 days can be saved. Earlier, in the current state
map, a slab cycle time was 15 days which was reduced to
13 days in future state. Procurement planning can be
improved due to indent of readymade steel. It makes a great
impact in cost savings as well as time savings if it can be
carried out throughout the project. In this case study, it is
G+28 story residential building. So, if 2 days is saved in
each slab cycle. There can be saved more than 56 days. A
project can be complete before 56 days of its project
delivery time. The wages of all the labours of these 56 days,
which would be a huge amount, can be saved.
Few considerations to be taken care of:
A. Readymade steel are 8% to 10% more expensive than
normal steel.
B. Normal steel = ₹ 40,000/Ton; therefore, for 5.5 Ton =
Rs. 2,20,000
C. Readymade steel = Approximately Rs. 2,42,000/- for
5.5 T
D. Rental of crane for erecting the columns should be
considered.
II. RESULTS AND DISCUSSION
Fig.13 Methodology for Value Stream Mapping
International Journal of Engineering Research & Technology (IJERT)
IJERT
IJERT
ISSN: 2278-0181
www.ijert.orgIJERTV3IS120412
(This work is licensed under a Creative Commons Attribution 4.0 International License.)